SU1626289A1 - Antenna - Google Patents

Abstract

The invention relates to antenna technology and can be used as a broadband antenna of vertical polarization in the UHF band. The purpose of the invention is to expand the frequency range. To do this, the antenna containing the first pipe 1, mounted vertically on the horizontal screen 2, and the pin 3 placed concentrically with the pipe 1, protruding beyond its upper end and connected to the lower end with the central conductor of the coaxial feeder, the second 4 and third 5 pipes, concentric with respect to the first pipe 1 and outside it. The pipe 1 is made with transverse annular cuts 6 forming capacitances in series connected in the first pipe 1. With increasing frequency, their resistance decreases and the transition of energy from the coaxial line formed by the first pipe 1 and pin 3 to the external coaxial lines formed by the first 1, second 4 and third 5 pipes decreases. The antenna power point moves to the upper end of the first pipe 1. As a result, the range is expanded towards higher frequencies. Reached KBV 0.33 in the frequency band with a 6: 1 overlap at the antenna height not exceeding a quarter of the maximum wavelength of the working range. 1 il. Yo

Description

ABOUT

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The invention relates to antenna technology and can be used as a broadband antenna of vertical polarization in the UHF band.

The purpose of the invention is to expand the frequency range.

The drawing shows the antenna, a general view.

The antenna contains the first pipe 1, mounted vertically on a horizontal screen 2 and connected to it, pin 3 placed inside the first pipe 1 concentric with it and connected to the lower end with the central conductor of the coaxial feeder (not shown), the second pipe 4 installed concentrically with respect to the first pipe 1 outside of it and connected to the lower end with a horizontal screen 2, and the third pipe 5 installed at the upper end of the pin 3 concentric with him. The first pipe 1 has a transverse annular section 6 and a capacitive disk. 7 at the top end.

The antenna has relative (relative to the longest wavelength range) dimensions, mm:

Pin height 0,217

Pin diameter 0,0043

The height of the first pipe 0,175

The diameter of the first pipe 0,018

The height of the second pipe 0,133

The diameter of the second pipe 0,05

Third pipe height0,033

Overall antenna height 0.25

Elements of the antenna structure are reinforced with fiberglass (not shown). The antenna works as follows. When operating in the low-frequency part of the band, the TEM electromagnetic wave in a coaxial line propagates along a coaxial feeder and a coaxial line formed by the lower portion of the first pipe 1 and pin 3. through the transverse annular section 6, the gap at the lower frequencies the surface of the first pipe 1, excites the TEM wave in the coaxial line formed by the surfaces of the first 1 and second 4 pipes, respectively. This wave excites a standing current wave on the outer surface of the second pipe 4, the first pipe 1 and the pin 3 section located above the upper end of the second pipe 4. The above-mentioned current wave, having a pattern of a horizontal screen 2, radiates intensely vertical electromagnetic waves polarization is similar to how it happens in a known antenna — an unbalanced antenna with a remote power point and where satisfactory coordination is achieved in a frequency band with an overlap of 3: 1. As the frequency increases, the capacitance of the transverse annular cut decreases and the energy transfer from the coaxial decreases.

the line formed by the first pipe 1 and pin 3, into the outer coaxial line formed by the first 1 and second 4 pipes, respectively.

Antenna power point is moving

to the upper end of the first pipe 1.Stot a current wave is excited on the surface of the portion of the pin 3 located above the upper end of the first pipe and the portion of the first pipe 1 located above the upper end

the second pipe 4, whose dimensions are close to resonant at the upper frequencies of the range, which provides satisfactory agreement in the high-frequency part of the range.

The antenna has an IPM of 0.33 in the frequency band with a 6: 1 overlap, which is two times wider than that of a known antenna, and the antenna height does not exceed a quarter of the maximum for the wavelength of the working range.

Claims (1)

Invention Formula An antenna comprising a first tube made of a conductive material, mounted vertically on a horizontal screen and connected with its lower end, and a pin mounted inside the first tube concentrically with it, protruding beyond its upper end and connected with its lower end to the central conductor of the coaxial a feeder, the outer conductor of which is connected to a horizontal screen, characterized in that, in order to expand the frequency range, a transverse annular section is made in the first pipe, a second pipe is inserted whose height is less than the height of the first pipe made of conductive material concentric with respect to the first pipe outside it and connected to its lower end with a horizontal screen, a third pipe is inserted, which is made of conductive material and mounted concentrically no pin at its upper end. five